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Sonochemically synthesized mesoporous cobalt oxide nanoparticles for luminol-enhanced chemiluminescence sensing

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In recent years, mesoporous cobalt oxides have attracted more attention due to their exceptional physical and chemical properties and their important applications in various fields. The synthesis of cobalt oxides… Click to show full abstract

In recent years, mesoporous cobalt oxides have attracted more attention due to their exceptional physical and chemical properties and their important applications in various fields. The synthesis of cobalt oxides of various sizes, morphologies, and porosity is still a challenging process. In this report, mesoporous Co3O4 NPs with different porosity were synthesized through facile, one-step, and cost-effective routes, without using any complicated materials or instruments, via the sonochemical process. X-ray powder diffraction (XRD), BET, and transmission electron microscopy (TEM) were used to characterize the as-synthesized NPs. XRD technique was used to determine the crystal structure and phase of the NPs, BET to describe the porous nature of the NPs, and TEM to investigate the structure and morphology of the NPs. Next, the effect of as-synthesized Co3O4 NPs as a catalyst for the luminol-H2O2 chemiluminescence system was studied. Co3O4 NPs were chosen since they have nanoscale size, high specific surface area, and mesoporous nature. Therefore, these NPs can form more active sites and thus show unique catalytic activity than common ionic catalysts such as Co2+, Fe3+, Cu2+ used in the luminol-H2O2 CL system. Finally, this system was used to detect and measure H2O2 and glucose under optimal conditions. A good linear relationship was observed between the chemiluminescence intensity of the designed system and the concentration of H2O2 and glucose. A linear range like 0.25–10 pM for H2O2 and 1–30 nM for glucose was obtained. The excellent LOD of the proposed method for measuring H2O2 was about 0.07 pM, and for measuring glucose was about 0.14 nM.

Keywords: system; cobalt; h2o2; co3o4 nps; mesoporous cobalt; chemiluminescence

Journal Title: Nanotechnology
Year Published: 2022

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